Conductive oxidation is a challenging oxidation technology in the oxidation industry and one of the valuable processes in oxidation business. Preparing for dyeing conductive aluminum alloys usually entails accepting a slightly higher price point; it's not about the lowest price being the best. This is not an ordinary technology.

The formula for the oxide film is thin, with good toughness and corrosion resistance, suitable for anodizing of deformed aluminum and aluminum alloys. It can also be used for surface maintenance of aluminum parts, providing antioxidant properties without passivation or filling handles.

② Formula 1.5 has a pH value of 1.5 to 2.2, with a thick oxide film of approximately 1 to 3 micrometers, dense and corrosion-resistant. The fine details of the antioxidant have not altered the color of the oxide film, which is colorless and light blue, suitable for processing aluminum and aluminum oxide. In the treatment scheme of Formula (2), the oxidized components should be immediately rinsed with cold water, followed by a potassium dichromate solution of 40-50g/L (pH = 4.5-6.5, adjusted with sodium carbonate), at a temperature of 95-90°C, for 5 to 10 minutes, then rinsed, and dried at 70°C.

③ The oxidation film of Formula 3 solution is colorless and transparent, with a thickness of approximately 0.3 to 0.5 micrometers, primarily used for deforming aluminum electrical components and for the conductivity of the film.

④ The formula is for forging of aluminum, rust-proof aluminum, and aluminum alloys. The oxide film is very thin, with low electrical conductivity and corrosion resistance, hardness, and wear resistance. It can be spot-welded or TIG-welded, but it cannot be welded. It is primarily used for aluminum alloy parts that require certain electrical conductivity.